New Rickettsiae in ticks collected in territories of the former soviet union.Dermacentor nuttallii from Siberia, Rhipicephalus sanguineus from Crimea, and Rh. pumilio from the Astrakhan Astrakhan, city, Russia Astrakhan (ăs`trəkăn, Rus. ä`strəkhənyə), city (1990 pop. 521,000), capital of Astrakhan region, SE European Russia. region were infected with Rickettsia rickettsia (rĭkĕt`sēə), any of a group of very small microorganisms, many disease-causing, that live in vertebrates and are transmitted by bloodsucking parasitic arthropods such as fleas, lice (see louse), and ticks. sibirica (12%), R. conorii (8%), and the Astrakhan fever agent (3%), respectively. Three new Rickettsiae of the R. massiliae genogroup were identified in ticks by 16S rDNA, gltA, and ompA sequencing. Rickettsiae are obligate obligate /ob·li·gate/ (ob´li-gat) pertaining to or characterized by the ability to survive only in a particular environment or to assume only a particular role, as an obligate anaerobe. intracellular gram-negative bacteria associated with arthropod arthropod Any member of the largest phylum, Arthropoda, in the animal kingdom. Arthropoda consists of more than one million known invertebrate species in four subphyla: Uniramia (five classes, including insects), Chelicerata (three classes, including arachnids and horseshoe vectors, ticks, mites, and insects that, while feeding, can transmit Rickettsiae to animals and humans. The rickettsioses Rickettsioses Often severe infectious diseases caused by several diverse and specialized bacteria, the rickettsiae and rickettsia-like organisms. The best-known rickettsial diseases infect humans and are usually transmitted by parasitic arthropod vectors. have characteristic clinical features, including fever, headache, maculopapular eruption, and sometimes eschar eschar /es·char/ (es´kahr) 1. a slough produced by a thermal burn, by a corrosive application, or by gangrene. 2. tache noire. es·char n. formation (primary lesion). The number of representatives of the genus Rickettsia has increased over the last decades as a result of improved cell culture isolation and agent identification techniques (1). Sequence comparison of gene coding for citrate synthase (gltA) (2), rOmpA outer membrane protein (ompA) (3), and 16S rRNA (4) has become the most reliable method of identifying Rickettsiae (5-8). We describe polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) amplification and sequence determination to identify Rickettsiae in naturally infected ixodid ticks in three regions of Russia endemic for tickborne rickettsioses. Rhipicephalus pumilio ticks (65 adults) were collected in 1996 from dogs in the Astrakhan region. Dermacentor nuttallii ticks (101 adults) were collected in 1994 in the village of Verhnyi Kouus, the Altay Mountains, Siberia. In 1997, Rh. sanguineus ticks (2 adults and 35 nymphs) were collected in the town of Saki, Crimea region, from dogs whose owners had serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. evidence of Mediterranean spotted fever spot·ted fever n. A tick typhus caused by Rickettsia rickettsii, such as Rocky Mountain spotted fever. spotted fever Rocky Mountain spotted fever, see there (Figure 1). The ticks were kept at room temperature before being washed in iodized i·o·dize tr.v. i·o·dized, i·o·diz·ing, i·o·diz·es To treat or combine with iodine or an iodide: iodize salt. i alcohol (10 minutes)just before testing, rinsed in distilled water, and dried on sterile filter paper. DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. was extracted from ticks by using the QIAmp Tissue Kit (QIAGEN, Hilden, Germany). Rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. DNA was detected by PCR with primers specific for Rickettsiae: RpCS.877p-RpCS. 1273r, which amplify a 396-bp fragment of gltA (2), and Rr190.70p-190-701 (3), which amplify a fragment of ompA from 629 to 632 bp. For all positive ticks, 587 to 590 bp of ompA were sequenced by using the ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. PRISM Dye Terminator Cycle Sequencing Kit with Amplitap Polymerase FS (PE Applied Biosystems, Warrington WA1 4SR, UK). Sequences were analyzed with the Applied Biosystem 377 automatic sequencing system. For newly detected genotypes, sequences of 16S rRNA encoding gene, gltA, and ompA were determined as previously described (2-4) (see Figure 2 for GenBank codes). [Figures 1-2 ILLUSTRATION OMITTED] We detected two different Rickettsiae in Rh. pumilio (Astrakhan fever agent and RpA4 genotype); two Rickettisiae from D. nutallii in Siberia (Rickettsia sibirica and DnS14 and DnS 28 genotypes); and R. conorii from Rh. sanguineous sanguineous /san·guin·e·ous/ (sang-gwin´e-us) 1. plethoric. 2. hemic. san·guin·e·ous adj. Of or relating to blood; bloody. ticks in Crimea (Table).
Table. Ticks infected in regions of the former Soviet Union
No. positive
ticks/total
Tick species Location examined
Rhipicephalus pumilio Astrakhan region 2/65
Rh. pumilio Astrakhan region 1/65
Dermacentor nutallii Siberia 12/101
D. nutallii Siberia 4/101
Rh. sanguineus Crimea 3/37
%
infected
Tick species ticks Rickettsial species
Rhipicephalus pumilio 3 Astrakhan fever agent
Rh. pumilio 1.5 RpA4 genotype
Dermacentor nutallii 12 Rickettsia sibirica
D. nutallii 4 DnS14 and DnS28 genotypes
Rh. sanguineus 8 R. conorii (Malish strain)
Our results confirm previous data of high epidemic activity of the Altay focus for North Asian tick typhus tick typhus n. Any of various tick-borne rickettsial diseases identified by their immunological reactions and, in some cases, by their pathogenicity. and the crucial role of D. nuttallii as a reservoir of R. sibirica infection (9). Our results are also consistent with those of a study in 1991 based on hemolymph hemolymph /he·mo·lymph/ (he´mo-limf?) 1. blood and lymph. 2. the bloodlike fluid of those invertebrates having open blood-vascular systems. he·mo·lymph n. testing (10), in which 3.2% of ticks from the Astrakhan region were demonstrated to be infected with Rickettsiae. An outbreak of Mediterranean spotted fever due to infection with R. conorii occurred in Crimea from 1947 to 1957. Only sporadic cases of the disease were reported (11) until 1995, when the incidence of Mediterranean spotted fever increased in central Crimea, with 40 cases in 1996 and more than 70 in 1997. Most cases occurred in the summer, when the Rh. sanguineus nymphs (principal vectors of R. conorii) (1) were active. Our results, showing that 8% of the Rh. sanguineus studied contained R. conorii DNA, provide further evidence of the Mediterranean spotted fever outbreak in the region. To date, only the R. conorii strain M-1, isolated in the territories of the former Soviet Union (the Black Sea coast of Georgia), has been genetically characterized. This strain is genetically distinct from the other strains of R. conorii, i.e., Indian tick typhus and the Moroccan and Malish strains (3). Our detection of the R. conorii strain identical to the Malish strain is the first evidence of the genetic heterogeneity of R. conorii in the region. The ompA sequences obtained from PCR-amplified products were different from those described for the known Rickettsiae for one DNA sample extracted from Rh. pumilio from the Astrakhan region (RpA4) and four DNA samples from D. nuttallii collected in Siberia (DnS14, DnS28, DnS79, DnS94). The sequences for the samples from D. nuttalii (DnS28, DnS79, and DnS94) were identical but differed from those of DnS14 and Rh. pumilio RpA4/2. The three new rickettsial agents were closely related and branched with members of the R. massiliae group, together with R. rhipicephali, Bar 29, R. aeschlimannii, and R. montanensis (Figure 2). Comparison of the sequences obtained by using the program BLAST demonstrated that they also differed from those of the Cadiz agent characterized from Ixodes ricinus in Spain (6), those of the Cooleyi genotype characterized from I. scapularis (5), MOA moa (mō`ə) [Maori], common name for an extinct flightless bird of New Zealand related to the kiwi, the emu, the cassowary, and the ostrich. The various species ranged in size from that of a turkey to the 10-ft (3-m) Dinornis giganteus. and WB-8-2 isolated from Amblyomma americanum and I. scapularis, respectively (8), and R. peacockii (7) in the United States. The pathogenicity of the members of the R. massiliae group is unknown, and their main reservoirs are regarded as ticks of the genus Rhipicephalus for R. massiliae and Bar 29. R. aeschlimannii has been isolated from Hyalomma marginatum and R. montanensis from ticks of the genus Dermacentor. R. rhipicephali has been demonstrated in ticks of the genus Dermacentor and in Rh. sanguineus (1). The similarity of gltA, ompA, and 16S rRNA gene sequences indicates that these three new agents are close to each other (from 99.7% to 99.9%) and could constitute a new rickettsial species. In the United States, various tickborne Rickettsiae occur in areas endemic for R. rickettsii, the agent of Rocky Mountain spotted fever Rocky Mountain spotted fever, infectious disease caused by a rickettsia. The germ is harbored by wild rodents and other animals and is carried by infected ticks that attach themselves to humans. (7). Similarly, in Mediterranean countries, several recently described Rickettsiae have been found in ticks of the Rh. sanguineus complex in the regions endemic for Mediterranean spotted fever caused by R. conorii (6). The effects of the presence of different Rickettsiae on the prevalence of infection rates of ticks with individual Rickettsiae and on the epidemiology of infections in humans have yet to be determined. R. sibirica and the Astrakhan fever agent are prevalent in Siberia and the Astrakhan region, respectively, but the pathogenicity of the new rickettsial genotypes has yet to be investigated. Acknowledgments We thank P.J. Kelly and E. Birtles for reviewing the article. References (1.) Raoult D, Roux Roux , Pierre Paul Émile 1853-1933. French bacteriologist. His work with the diphtheria bacillus led to the development of antitoxins to neutralize pathogenic toxins. V. Rickettsioses as paradigms of new or emerging infectious diseases. Clin Microbiol Rev 1997;10:694-719. (2.) Roux V, Rydkina E, Eremeeva M, Raoult D. Citrate synthase gene comparison, a new tool for phylogenetic phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. analysis, and its application for the Rickettsiae. Int J Syst Bacteriol 1997;47:252-61. (3.) Fournier P-E, Roux V, Raoult D. Phylogenetic analysis of spotted fever group rickettsiae by study of the outer surface protein rOmpA. Int J Syst Bacteriol 1998;48:839-49. (4.) Roux V, Raoult D. Phylogenetic analysis of the genus Rickettsia by 16S rDNA sequencing. Res Microbiol 1995;146:385-96. (5.) Billings AN, Teltow GJ, Weaver SC, Walker DH. Molecular characterization of a novel Rickettsia species from Ixodes scapularis Ixodes scapularis Deer tick A tick with a 2-yr life cycle, and 3 feeding seasons; the cycle begins in spring with soil deposition of fertilized eggs; by summer, larvae emerge and imbibe a blood meal from small vertebrates–eg, white-footed mouse– in Texas. Emerg Infect Dis 1998;4:305-9. (6.) Marquez FJ, Muniain MA, Soriguer RC, Izquierdo G, Rodriguez-Bano J, Borobio M. Genotypic identification of an undescribed spotted fever group Rickettsia in Ixodes ricinus from southwestern Spain. Am J Trop Med Hyg 1998;58:570-7. (7.) Niebylski ML, Shrumpf ME, Burgdorfer W, Ficher ER, Gage KL, Schwan TG. Rickettsia peacockii sp. nov., a new species infecting wood ticks, Dermacentor andersoni, in Western Montana. Int J Syst Bacteriol 1997;47:446-52. (8.) Weller SJ, Baldridge GD, Munderloh UG, Noda H, Simser J, Kurtti T. Phylogenetic placement of Rickettsiae from ticks Amblyomma americanum and Ixodes scapularis. J Clin Microbiol 1998;36:1305-17. (9.) Rudakov NV. Tick-borne rickettsiosis in Russia (epidemiology and current conditions of natural foci). In: Kazar J, Toman to·man n. A gold coin formerly used in Persia worth 10,000 dinars. [Farsi t  m R, editors.
Rickettsiae and rickettsial diseases. Proceedings of the 5th
International Symposium; 1996; Veda, Bratislava. p. 216-20.(10.) Eremeeva ME, Beati L, Makarova VA, Fetisova NF, Tarasevich IV, Balayeva NM, et al. Astrakhan fever rickettsiae: antigenic and genotypic analysis of isolates obtained from human and Rhipicephalus pumilio ticks. Am J Trop Med Hyg 1994;51:697-706. (11.) Kulagin SM, Tarasevich IV, Rubakin PE, Nikitin AM, Krupina ZN. On eradication of Marseilles fever (in Russian). J Microbiol Epidemiol Immunobiol 1960;8:117-21. Dr. Rydkina is a senior researcher at the Gamalaya Institute in Moscow. She was trained as a postdoctoral fellow in Marseille, France. Her main interest is in rickettsial diseases. Elena Rydkina,(*)([dagger]) Veronique Roux,(*) Natalia Fetisova,([dagger]) Nikolai Rudakov,([double dagger]) Mouniver Gafarova,([sections]) Irina Tarasevich,([dagger]) and Didier Raoult(*)([dagger]) (*) Faculte de Medecine, Universite de la Mediterranee, Marseille, France; ([dagger]) Russian Academy of Medical Sciences, Moscow, Russia; ([double dagger]) Research Institute of Endemic Infectious Diseases, Omsk, Russia; and ([sections]) Medical University, Simferopol, Crimea Address for correspondence: Didier Raoult, Unite des Rickettsies, CNRS CNRS Centre National de la Recherche Scientifique (National Center for Scientific Research, France) CNRS Centro Nacional de Referencia Para El Sida (Argentinean National Reference Center for Aids) UPRES-A 6020, Faculte de Medecine, Universite de la Mediterranee, 27 bd. J. Moulin moulin (m  lăN`): see pothole. 13385 Marseille, Cedex 05, France; fax: 33-49-183-0390;
e-mail: Didier. Raoul@medecine.univ-mrs.fr.
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